Techniques are presented for generating thermal infrared and visible composite images from cloud-free portions of MODIS (MODerate resolution Imaging Spectroradiometer) images closely spaced in time, with a focus on studies of landfast sea ice along the East Antarctic coast. Composite image inclusion criteria are based on modified MODIS EOS cloud mask product results. The compositing process places emphasis on retaining maximum spatial resolution while minimizing computing storage space requirements. Composite images can be produced either as a regular product (e.g., on a 10-day grid), or dynamically (whenever enough information is acquired to produce a new output image). The techniques presented are applicable at any latitude, are available for all MODIS channels at their native resolution, can combine Aqua and Terra images, and can produce maps in any output projection. However, due to the polar orbit of NASA's Terra and Aqua satellites which host the MODIS instrument, more frequent coverage is produced at higher latitudes. Thus, the techniques presented are particularly applicable to polar research. Examples of summertime (visible) and wintertime (IR) composite image generation of the landfast sea ice around the Mertz Glacier region, East Antarctica, are included.
History
Publication title
The IGARSS 2009 Proceedings
Editors
The Institute of Electrical and Electronics Engineers Geoscience and Remote Sensing Society
Pagination
639-641
ISBN
9781424433957
Department/School
Institute for Marine and Antarctic Studies
Publisher
The Institute of Electrical and Electronics Engineers Geoscience and Remote Sensing Society
Place of publication
University of Capetown, Capetown, South-Africa
Event title
2009 IEEE International Geoscience & Remote Sensing Symposium